Mouly Anne Marie, Gervais Rémi
Institut des Sciences Cognitives, Centre National de la Recherche Scientifique Unité Mixte de Recherche (UMR) 5015, 69675 Bron Cédex, France.
Learn Mem. 2002 Mar-Apr;9(2):66-75. doi: 10.1101/lm.45602.
This study was aimed at investigating the consequences of learning on late polysynaptic components of evoked field potential signals recorded in parallel at different levels of the olfactory pathways. For this, evoked field potentials induced by electrical stimulation of the olfactory bulb were recorded simultaneously in the anterior piriform cortex, the posterior piriform cortex, the lateral entorhinal cortex, and the dentate gyrus. The different parameters of late components were measured in each site before and after completion of associative learning in anesthetized rats. In the learning task, rats were trained to associate electrical stimulation of one olfactory bulb electrode with the delivery of sucrose (positive reward) and stimulation of a second olfactory bulb electrode with the delivery of quinine (negative reward). In this way, stimulation of the same olfactory bulb electrodes used for inducing field potentials served as a discriminative cue in the learning paradigm. The data confirmed previous observation that learning was associated with a lowering in late-component-1 intensity of induction in the posterior piriform cortex. The use of simultaneous recording allowed us to further specify the consequences of learning on late-component distribution in the studied network. Indeed the data showed that whereas before learning, late component 1 was rather uniformly distributed among the recorded sites; following learning, its expression was facilitated preferentially in the posterior piriform cortex and lateral entorhinal cortex. Furthermore, learning was accompanied by the emergence of a new late component (late component 2), which occurred simultaneously in the four recording sites. The possible involvement of potentiation of polysynaptic components in recognition and/or consolidation processes will be discussed.
本研究旨在探究学习对在嗅觉通路不同水平并行记录的诱发电场电位信号的晚期多突触成分的影响。为此,在麻醉大鼠中,同时记录嗅球电刺激诱发的前梨状皮质、后梨状皮质、外侧内嗅皮质和齿状回的电场电位。在麻醉大鼠完成联合学习前后,测量每个部位晚期成分的不同参数。在学习任务中,训练大鼠将一个嗅球电极的电刺激与蔗糖(正性奖励)的给予相关联,将第二个嗅球电极的刺激与奎宁(负性奖励)的给予相关联。这样,用于诱发电场电位的相同嗅球电极的刺激在学习范式中作为辨别线索。数据证实了先前的观察结果,即学习与后梨状皮质中晚期成分1诱导强度的降低有关。同时记录的使用使我们能够进一步明确学习对所研究网络中晚期成分分布的影响。事实上,数据显示,在学习前,晚期成分1在记录部位之间分布较为均匀;学习后,其表达优先在梨状后皮质和外侧内嗅皮质中得到促进。此外,学习伴随着一个新的晚期成分(晚期成分2)的出现,该成分在四个记录部位同时出现。将讨论多突触成分增强在识别和/或巩固过程中的可能作用。